CN104583137B - Portable rich hydrogen water generation kettle - Google Patents

Abstract

The object of the present invention is to provide a kind of portable rich hydrogen water generation kettle, it can will be not limited to water, using coffee and other the water liquid that is principal constituent as former water, what no matter when and where generate high density drinks with rich hydrogen water, it is made up of following part, this following part comprises container body (1), and it is made up of transparent cylinder-like part (1a) etc.; Quantitative water supply mechanism (2), it is formed on bottom top layer block part (1b) bottom it, by a certain amount of water supply in container body (1) in the chemical agent groove (6) on the bottom (1c) being formed at more bottom; Gas passage (4), it to be formed at bottom this on top layer block part (1b), has reverse checkvalve (3), makes the hydrogen that produces in chemical agent groove (6) mobile in container body (1); Chemical agent groove (6), it is formed on the bottom (1c) of the bottom bottom forming container body (1), receives hydrogen to send out propellant (5); Top block part, it forms the outlet mouth (7) at the top of container body (1); Lid (9), it is located in outlet mouth (7) with outside removably mode, has reducing valve (8).

Description

Portable rich hydrogen water generation kettle

Technical field

The present invention relates to the portable kettle that can generate rich hydrogen water, wherein, can freely and easily, no matter when and where, what all can be created on sweet water, coffee, black tea or green tea etc. take water as the rich hydrogen water comprising hydrogen in the various liquid of principal constituent, can drink.

Background technology

As the beverage producer of rich hydrogen water that can be portable, it commercially has sale, in this producer, in the bottom of drum-type container, 2 electrodes are set, electricity are carried out to the water be received in this drum-type container and decomposes, produce hydrogen, be dissolved in the water in this drum-type container, produce rich hydrogen water.The beverage that this market is sold is rechargeable with the producer of rich hydrogen water, adopts the water of each 0.3 liter be receivable in this drum-type container, by charging once, can produce rich hydrogen water 6 times.Producing required time is probably 10 minutes.

It is believed that, the beverage that market is sold is portable with the producer of rich hydrogen water, but it has following etc. problem, namely, the time produced required for rich hydrogen water is slightly long, it is 10 minutes, it is the advertisement item that 550ppb(also has the 1.16ppm mentioning about 2 times that the appearance of the hydrogen in rich hydrogen water obtained in addition deposits concentration), be far from being fully high, in addition owing to decomposing by carrying out electricity to former water, form the structure of hydrogen molecule, therefore certainly, former water and electrode contact, former water is defined in mineral water or tap water etc., be unsuitable for coffee, tea etc.

Patent documentation 1 relates to the producer of a kind of kettle type beverage with rich hydrogen water, it is made up of the kettle portion and pedestal portion for generating water, this kettle portion being used for generating water stores former water, places this for generating the kettle portion of water on this pedestal portion, the electric power that this pedestal portion supply electricity decomposes.

The above-mentioned kettle portion for generating water is provided with the tank room of lengthwise, and bottom it, the reaction chamber that volume is little is set, between this tank room and this reaction chamber, form connected entrance, in this reaction chamber, polymeric membrane is set, this polymeric membrane faces this tank room, maintain horizontality, and by the battery lead plate formed by metal sheet with holes or metal dictyosome, clamp the upper and lower of polymer face, and at this battery lead plate be arranged between upper and lower electrode terminal, be situated between and establish the spring of electroconductibility, to be arranged on colyliform electrode connector and Spot electrodes junctor that upper and lower electrode terminal becomes stalemate to be arranged at above-mentioned pedestal portion.

On the other hand, in above-mentioned pedestal portion, colyliform electrode connector and above-mentioned Spot electrodes junctor are set.

So, according to the kettle-type beverage producer of rich hydrogen water of this patent documentation 1, if where necessary, import this at the tap water by forming former water etc. to be used for after in the tank room in the kettle portion generating water, this is positioned over above-mentioned pedestal portion for the kettle portion generating water, switches on power, because former water flows in this reaction chamber by connected entrance, therefore carry out the electrolytic action of water here, produce hydrogen.Rise in longitudinal longer the tank room formed due to hydrogen spended time, therefore can be dissolved in the water well, the rich hydrogen water that concentration is high can be formed.

According to the explanation of embodiment, it is believed that, for the kettle-type beverage producer of rich hydrogen water of this patent documentation 1, in order to generate rich hydrogen water, need the time of 10 ~ 15 minutes, the appearance of the rich hydrogen water obtained deposits the occasion that hydrogen concentration in conduction time is 10 minutes, for 490ppb, the occasion of 15 minutes, this concentration was 515ppb, lower than the concentration of the rich hydrogen water that the beverage by above-mentioned market is sold obtains with the producer of rich hydrogen water.

In addition, the kettle-type beverage of patent documentation 1 with the producer of rich hydrogen water in configuration aspects, be not suitable for carrying, as aforementioned, the rise time of rich hydrogen water is slightly long, and in the scope of 10 ~ 15 minutes, the appearance of the rich hydrogen water obtained deposits hydrogen concentration also as above, the concentration of the rich hydrogen water slightly obtained with the producer of rich hydrogen water lower than the beverage by market is sold, be far from being height.In addition, because the kettle-type beverage of patent documentation 1 is also identical with the producer of rich hydrogen water with the beverage that above-mentioned market is sold with the producer of rich hydrogen water, for decomposing former water power, form the structure of hydrogen molecule, therefore certainly, it is the structure of former water and electrode contact, and former water is defined in mineral water or tap water etc., be not suitable for coffee, tea etc.

prior art document

patent documentation

Patent documentation 1:JP JP 2012-No. 217868 publications.

Summary of the invention

the problem that invention will solve

The present invention solves the problem of above-mentioned prior art, the problem of solution of the present invention is to provide a kind of portable rich hydrogen water generation kettle, it is not limited to mineral water, the sweet water of tap water etc., or can be that the liquid of principal constituent is as former water with water using the water of coffee, various juice or teas etc., no matter when and where, the rich hydrogen water of beverage of high density is generated in short time.

for solving the technical scheme of problem

First scheme of the present invention relates to a kind of portable rich hydrogen water generation kettle, and it is made up of following part, and this following part comprises:

Container body, the inside of this container body can be had an X-rayed, and receives water or take water as the liquid of principal constituent;

Gas passage, this gas passage is formed at the bottom top layer of said vesse main body, have according to the water of the inside being dissolved in said vesse main body or with water be principal constituent liquid in mode reverse checkvalve that the hydrogen that the chemical agent groove inside in bottom bottom produces is sent into;

Above-mentioned chemical agent groove, this chemical agent groove is formed at the bottom bottom of said vesse main body, receives and reacts with water, produces the hydrogenite of hydrogen;

Outlet mouth, this outlet mouth is formed at the top of said vesse main body;

Lid, this lid is with the lid be located at outside removably mode in above-mentioned outlet mouth, and according to can before taking off from this outlet mouth, the mode reducing the pressure of container body inside be formed.

Alternative plan of the present invention relates to a kind of portable rich hydrogen water generation kettle,

It is made up of following part, and this following part comprises:

Container body, the inside of this container body can be had an X-rayed, and receives water or take water as the liquid of principal constituent;

Gas passage, this gas passage is formed at the bottom top layer of said vesse main body, there is quantitative water supply mechanism and reverse checkvalve, this quantitative water supply mechanism is used for the above-mentioned water of the inside of said vesse main body or is that a certain amount of of liquid of principal constituent is supplied in the chemical agent groove of bottom bottom with water, this reverse checkvalve be used for according to the water of the inside being dissolved in said vesse main body or with water be principal constituent liquid in the mode hydrogen that will produce in this chemical agent groove inside send into;

Above-mentioned chemical agent groove, this chemical agent groove is formed at the bottom bottom of said vesse main body, receives and reacts with water, produces the hydrogenite of hydrogen;

Outlet mouth, this outlet mouth is formed at the top of said vesse main body;

Lid, this lid is with the lid be located at outside removably mode in above-mentioned outlet mouth, comprise the reducing valve that the inside of said vesse main body is kept according to the mode being no more than certain pressure, and according to can before taking off from this outlet mouth, the mode reducing the pressure of container body inside be further formed.

3rd scheme of the present invention relates to the portable rich hydrogen water generation kettle described in the 2nd scheme of the present invention, and wherein, above-mentioned quantitative water supply mechanism is made up of following part, and this following part comprises:

For water route, this confession water route is formed at the bottom top layer of said vesse main body, is communicated with the inside of the inside of this container body with the chemical agent groove of bottom bottom;

Spheroid, this spheroid is be arranged at the spheroid in the above-mentioned midway supplying water route, form quantitative notch part, this quantitative notch part is opened on the private side of said vesse main body in peacetime state, according to where necessary, by making it rotate, the mode that can be opened on the private side of above-mentioned chemical agent groove is formed, and quantitatively can receive a certain amount of water or take water as the liquid of principal constituent;

Operating mechanism, this operating mechanism is used for carrying out rotating operation to above-mentioned spheroid.

4th scheme of the present invention relates to the of the present invention 1st, portable rich hydrogen water generation kettle described in 2 or 3 schemes, wherein, above-mentioned chemical agent groove is formed at the inner face of the bottom as the bottom bottom screwed togather with the bottom top layer of removably mode and said vesse main body.

the effect of invention

According to the portable rich hydrogen water generation kettle of first scheme of the present invention, first, hydrogenite is filled in above-mentioned chemical agent groove, and by water or be that the liquid of principal constituent injects said vesse main body with water, then, take out slightly water in this container body or take water as the liquid of principal constituent, or be equipped with some water individually or take water as the liquid of principal constituent, if certain person in them is injected above-mentioned chemical agent groove, the water of the hydrogenite then in this chemical agent groove and this water etc. reacts hastily, produces hydrogen.

Obviously, take off above-mentioned lid, opening above-mentioned outlet mouth, carry out above-mentioned water etc. therefrom to the injection in container body.Above-mentioned hydrogenite is to putting into according to the order of the structure meeting this chemical agent groove and carrying out in above-mentioned chemical agent groove.

Water in said vesse main body or with water be the liquid of principal constituent to the injection in chemical agent groove more particularly, undertaken by following manner, which is: take off above-mentioned lid from above-mentioned outlet mouth, from this outlet mouth, take out the water etc. in container body, be injected in above-mentioned chemical agent groove.From the taking-up of the water etc. of container body, various mechanism at random can be adopted, method.Utilizing the occasion of glass pipette etc., having and can take out substantially a certain amount of easily, simply the water etc. taken out is injected this advantage of chemical agent groove.

In addition, some water of above-mentioned independent outfit or be that the liquid of principal constituent carries out to the injection in chemical agent groove more particularly by following manner with water, which is: such as, with the hydrogenite loaded in above-mentioned chemical agent groove in groups, be equipped with the water that is filled in small vessels or take water as the liquid of principal constituent, the water be filled in this small vessels etc. is injected the chemical agent groove that hydrogenite is housed.Obviously, equally in this occasion, the various mechanism beyond it can be adopted, method.Be equipped with hydrogenite the small vessels being filled with water etc. in groups, adopt this mechanism, in this occasion, have easy, certain advantage.

In above-mentioned chemical agent groove, the hydrogen that above-mentioned hydrogenite and water etc. react and produces riddles the space of the lower side of the reverse checkvalve of this chemical agent groove inside and above-mentioned gas path inside, if but the gaseous tension in this space exceedes certain pressure, then this gas is by this reverse checkvalve, move to the side, gas passage above it, in above-mentioned water in the said vesse main body then connected in this gas passage etc., be dissolved at leisure wherein, remaining part floats simultaneously.

Although also depend on the character of above-mentioned hydrogenite, usually, the electricity by water decomposes, and reacts in short time, produce a large amount of hydrogen with water, such as, can be passed through the time of 3 minutes, produces the hydrogen of q.s.Like this and the hydrogen produced as aforementioned, via above-mentioned reverse checkvalve and above-mentioned gas path, move in said vesse main body, while being dissolved in water wherein etc., the remaining hydrogen do not dissolved floats wherein, moves in the space on the end face of the water in this container body etc.The pressure of the hydrogen in this space rises at leisure, but, usually, do not rise to 2 normal atmosphere.Container body is formed can resist 10 atmospheric modes, and this container body does not have the danger of breaking because of gaseous tension.

As aforementioned, from adopt glass pipette etc. or from the water of small vessels the injection moment, after can judging the time producing enough hydrogen, such as, after the time of 3 minutes, be also applicable to such as, the time of 20 ~ 30 seconds, said vesse main body is vibrated, water of inside etc. and hydrogen is stirred, promotes that this hydrogen is dissolved in water etc.Thus, the water in this container body etc. form the rich hydrogen water that hydrogen dissolves with fully high concentration.Then, close the above-mentioned lid of above-mentioned outlet mouth if taken off, discharge this outlet mouth, then the rich hydrogen water of its inside can from this outlet mouth, directly or pour into after in glass cylinder class and drink.

In addition, the function that above-mentioned lid is had by it, discharges and residues in the high hydrogen of some gaseous tensions at the top of said vesse main body, then it discharged from above-mentioned outlet mouth.Like this, before this lid relatively the taking off of this outlet mouth, reduce the air pressure of this container body inside, thus, a large amount of bubble that the hydrogen evolution that is dissolved in the water can be allowed little and blowing up.Owing to forming this container body pellucidly, therefore the appearance that the injection can observing a large amount of bubble of such white from outside is risen.

In addition, due to as above, the transparent starting material that this container body can be had an X-rayed by inside make, therefore not only have above situation, and the hydrogen to produce because of above-mentioned hydrogenite and water and reaction forms bubble, the appearance floated in the water in this container body etc. also can be observed certainly.

In addition, according to the portable rich hydrogen water generation kettle of the 1st scheme of the present invention, owing to not being inner in container body, electrode is set, decomposed by electricity, produce the situation of hydrogen, therefore except mineral water, beyond tap water, also can by coffee, teas or juice etc. are used as the former water generating heavy-oxygen-enriched water.In addition, the former water of container body inside is being injected chemical agent groove, and as the occasion of the water that hydrogen produces, in the relation of the character with hydrogenite, also have unaccommodated composition, the liquid being principal constituent with the water comprising them can not be used as former water certainly.Be not like this, and the water that is equipped with separately etc. injected chemical agent groove, as the occasion of the water that hydrogen produces, as long as be take water as the beverage of principal constituent, the liquid of sample whencesoever, all freely can be used as former water.

According to the portable rich hydrogen water generation kettle of the 2nd scheme of the present invention, identical with the portable rich hydrogen water generation kettle of the 1st scheme of the present invention, hydrogenite is filled in above-mentioned chemical agent groove, and by water or be that the liquid of principal constituent is injected in said vesse main body with water, then, above-mentioned quantitative water supply mechanism as distinctive structure is operated, the a certain amount of of above-mentioned water in said vesse main body etc. is supplied in this chemical agent groove, now, water in above-mentioned hydrogenite in this chemical agent groove and this water etc. reacts hastily, produce hydrogen.

Identical with the portable rich hydrogen water generation kettle of the 1st scheme of the present invention, above-mentioned water etc., after taking off above-mentioned lid, inject from above-mentioned outlet mouth.Above-mentioned hydrogenite loads in the chemical agent groove of above-mentioned bottom bottom according to the order meeting its structure.The water supplying operation of the water of above-mentioned quantitative water supply mechanism etc. is certainly fixed on after in this outlet mouth at this lid peripheral hardware and carries out.

In above-mentioned chemical agent groove, the hydrogen that above-mentioned hydrogenite reacts with water etc. and produces is via the identical process of the portable rich hydrogen water generation kettle with first scheme of the present invention, inner from this chemical agent groove, by above-mentioned reverse checkvalve and gas passage, move in the said vesse main body above it, in above-mentioned water wherein etc., be dissolved at leisure wherein, remaining part floats simultaneously.

Illustrating as the portable rich hydrogen water generation kettle for first scheme of the present invention, also depend on the character of above-mentioned hydrogenite, but, usually, decompose, in the short period of time by electricity, through such as, the time of 3 minutes, produce the hydrogen of enough amounts.The hydrogen produced like this is as aforementioned, via above-mentioned reverse checkvalve etc., move in said vesse main body, be dissolved in water wherein etc., the remaining hydrogen simultaneously do not dissolved floats wherein, moves in the space on the end face of the water in this container body etc.The pressure of the hydrogen in this space rises at leisure, but owing to arranging reducing valve on the above-mentioned lid of outlet mouth of closing its top, the discharge of this reducing valve exceedes the hydrogen of certain pressure, this space is remained on below certain pressure, therefore this container body inside is held in below this certain pressure.

As aforementioned, in the water supplying operation moment from above-mentioned quantitative water supply mechanism, after can judging the time producing sufficient hydrogen, such as, after the time of 3 minutes, be applicable to making said vesse body vibration with 20 ~ 30 seconds, the water of inside etc. and hydrogen are stirred, promote the dissolving of this hydrogen in water etc.Thus, the water in this container body etc. form the rich hydrogen water that hydrogen dissolves with fully high concentration.Then, by taking off the above-mentioned lid of above-mentioned outlet mouth being closed, discharge this outlet mouth, this rich hydrogen water can from this outlet mouth, directly or pour into after in glass cylinder class and drink.

Portable rich other the effect of hydrogen water generation kettle of alternative plan of the present invention is identical with the rich hydrogen water generation kettle of the portable of first scheme of the present invention.

According to the portable rich hydrogen water generation kettle of third program of the present invention, in above-mentioned chemical agent groove, by simple operation, the water etc. of this container body positively can be injected in appropriate amount.

According to the portable rich hydrogen water generation kettle of fourth program of the present invention, because above-mentioned chemical agent groove is formed on the inner face of the above-mentioned bottom screwed togather with the bottom top layer of removably mode and said vesse main body, therefore by open-and-shut operation, above-mentioned hydrogenite is loaded this chemical agent groove inner.

Accompanying drawing explanation

Fig. 1 is the longitudinal sectional view of the portable rich hydrogen water generation kettle of embodiment 1;

Fig. 2 is the decomposition longitudinal sectional view of the portable rich hydrogen water generation kettle of embodiment 1;

Fig. 3 is the right side view of the portable rich hydrogen water generation kettle of embodiment 1;

Fig. 4 is the vertical view of the bottom of the portable rich hydrogen water generation kettle of embodiment 1;

Fig. 5 is the vertical view of the bottom top layer block part of the portable rich hydrogen water generation kettle of embodiment 1;

Fig. 6 is the longitudinal sectional view of the portable rich hydrogen water generation kettle of embodiment 2;

Fig. 7 is the decomposition longitudinal sectional view of the portable rich hydrogen water generation kettle of embodiment 2;

Fig. 8 is the front view of the portable rich hydrogen water generation kettle of embodiment 2;

Fig. 9 is the vertical view of the bottom top layer block part of the portable rich hydrogen water generation kettle of embodiment 2;

Figure 10 is the vertical view of the bottom of the portable rich hydrogen water generation kettle of embodiment 2.

the explanation of label:

Label 1 container body; Label 1a cylinder-like part; Block part in upper strata bottom label 1b;

Label 1b1 connects minor diameter; Label 1b2 connects outer screw section; Label 1b3 operation opening portion;

Label 1c bottom; Label 1c1 connects female threaded portion; Label 1d recess;

Label 2 quantitative water supply mechanism; Label 2a is for water route; Label 2a1 minor diameter introducing port;

Label 2a2 valve seat configuration section; Label 2a3 major diameter assembly hole; Label 2a31 female threaded portion;

Label 2b spheroid; The quantitative notch part of label 2bh; Label 2c knob;

Label 2d1 upper valve base; Label 2d2 lower valve base; Stop member bottom label 2e;

Label 2e1 valve seat configuration section; Label 2e2 communicating pores; Label 2e3 positive thread;

Label 3 reverse checkvalve; The cylindric base portion of label 3a; Label 3b feather valve portion;

Label 4 gas passage; Label 4a valve configuration section; Label 4b division plate;

Label 4bh gas passes through aperture; Label 5 hydrogenite; Label 6 chemical agent groove;

Label 7 outlet mouth; Label 7a connects minor diameter; The little cylindrical portion of label 7b;

Label 7c connects positive thread; Label 8 reducing valve; Label 8a open holes;

Label 8b leak; Label 8c mounting cylinder; Label 8c1 valve opening;

Label 8d valve ball; Label 8e compression helical spring; Label 9 lid;

Label 9a connects negative thread; Label 9b skirt section; Label 9h endless groove;

Label 10 filter blocks portion; Label 10a strainer receptacle; Label 10b, 10c endless groove;

Label 10h communicating aperture; Label 11 strainer; Label 21 container body;

Label 21a cylinder-like part; Top layer block part bottom label 21b; Label 21b1 connects minor diameter;

Label 21b2 connects outer screw section; Label 21c bottom; Label 21c1 connects female threaded portion;

Label 21c2 is for loading the endless groove of wear ring; Label 23 reverse checkvalve; The cylindric base portion of label 23a;

Label 23b feather valve portion; Label 24 gas passage; Label 24a valve setting unit;

Label 24b gas passes through aperture; Label 24f strainer; Label 25 hydrogenite;

Label 26 chemical agent groove; Label 27 outlet mouth; Label 27a connects minor diameter;

The little cylindrical portion of label 27b; Label 27c connects positive thread; Label 29 lid;

Label 29a connects negative thread; Label 29b skirt section; Label 29c loads the endless groove of wear ring.

Embodiment

According to 2 embodiments, with reference to accompanying drawing, be specifically described for implementing mode of the present invention.The portable rich hydrogen water generation kettle of embodiment 1 is the example adopting the 2nd scheme of the present invention, and the portable rich hydrogen water generation kettle of embodiment 2 is the example adopting the 1st scheme of the present invention.

(embodiment 1)

The portable rich hydrogen water generation kettle of this embodiment 1, as shown in Fig. 1 ~ Fig. 3, consists essentially of container body 1; Quantitative water supply mechanism 2, this quantitative water supply mechanism 2 is formed at the bottom top layer of this container body 1; Gas passage 4, this gas passage 4 is formed at the upper strata, bottom of this container body 1, has reverse checkvalve 3; Chemical agent groove 6, this chemical agent groove 6 is formed at the bottom bottom of this container body 1, receives hydrogenite 5; Outlet mouth 7, this outlet mouth 7 is formed at the top of this container body 1; Lid 9, this lid 9 has the reducing valve 8 be located at outside the mode of loading and unloading in this outlet mouth 7.

Said vesse main body 1 is as shown in Fig. 1 ~ Fig. 3, by cylinder-like part 1a, bottom top layer block part 1b, bottom 1c, form with above-mentioned outlet mouth 7, this cylinder-like part 1a is made up of transparent plastics, and bottom this, top layer block part 1b is formed as the bottom top layer bottom it, this bottom 1c forms above-mentioned chemical agent groove 6, and above-mentioned outlet mouth 7 is made up of the discharge block part at top.

Above-mentioned bottom top layer block part 1b is as shown in Fig. 1 and Fig. 2, be essentially the parts of its diameter short cylindrical shape identical with above-mentioned cylinder-like part 1a, form breach at its top peripheral, form the connection minor diameter 1b1 that the internal diameter of its external diameter and this cylinder-like part 1a is basically identical.As shown in this figure, be located on this connection minor diameter 1b1 outside the bottom of above-mentioned cylinder-like part 1a, form the bottom top layer of said vesse main body 1.The bottom of this cylinder-like part 1a and the fitting connection portion of this connection minor diameter 1b1 are fixed by caking agent.In addition, bottom this, the bottom of top layer block part 1b is also by forming breach at its peripheral part, and form minor diameter, in its periphery, car has screw thread, forms the connection outer screw section 1b2 screwed togather with the connection female threaded portion 1c1 of above-mentioned bottom 1c.Bottom surface of top layer block part 1b bottom this, forms the recess 1d being formed in the aftermentioned clearance space wherein arranging filter blocks portion 10.In addition, bottom this, the inside of top layer block part 1b, forms its content specifically described later, has the gas passage 4 of above-mentioned quantitative water supply mechanism 2 and above-mentioned reverse checkvalve 3.

Above-mentioned bottom 1c is also as shown in Fig. 1 ~ Fig. 3, substantially the thin module being seen as circle from plane that its external diameter is identical with above-mentioned cylinder-like part 1a is formed, the all sidepiece inner faces erected at its periphery, car has screw thread, forms the above-mentioned connection female threaded portion 1c1 screwed togather with the connection outer screw section 1b2 of the periphery, bottom of above-mentioned bottom top layer block part 1b.

The discharge buccal mass part forming above-mentioned outlet mouth 7 is in its external diameter foot periphery identical with above-mentioned cylinder-like part 1a, form breach, form the connection minor diameter 7a basically identical with the internal diameter of this cylinder-like part 1a, as shown in Fig. 1 and Fig. 2, be located on this connection minor diameter 7a outside the top of this cylinder-like part 1a, both are connected.This both connection section is fixed by caking agent.This discharge buccal mass part is as shown in Fig. 1 and Fig. 2, comprise little cylindrical portion 7b, this little cylindrical portion 7b slightly remains its diameter part identical with the above-mentioned cylinder-like part 1a of the top of the connection minor diameter 7a of bottommost, from its top in tapering coniform in top, erects slightly, from its top, via the discrepancy in elevation, extend up, this little cylindrical portion 7b passes through in its periphery, car has screw thread, forms the connection outer screw section 7c screwed togather with the connection negative thread 9a of the inner circumferential of above-mentioned lid 9.In addition, this outer screw section 7c forms 2 longitudinal slots, and these 2 longitudinal slots, in circumference, have the angle intervals of 180 degree, from its top, extend to bottom.In addition, the inner side forming the discharge buccal mass part of this discharge buccal mass part 7, from bottommost, near the lowermost end of the little cylindrical portion 7b at top, is formed in the taper forming upwards diameter, the inner side of the little cylindrical portion 7b at its top is formed at the cylindric inner face of same diameter, until top.

Above-mentioned bottom top layer block part 1b, the bottom 1c as bottom bottom is identical with above-mentioned cylinder-like part 1a with the discharge buccal mass part as above-mentioned outlet mouth 7, in the present embodiment 1, is made by transparent plastics.In addition, in this embodiment 1, from the end face of the bottom top layer block part 1b of the bottom surface of formation container body 1, in the scope of the bottom of the discharge buccal mass part of formation outlet mouth 7, form the capacity of the water of receivability 350ml.Obviously, this capacity is not limited to.

Above-mentioned quantitative water supply mechanism 2 is as shown in Fig. 1 and Fig. 2, form by for water route 2a and spheroid 2b and knob (operating mechanism) 2c, this confession water route 2a is formed at the pars intermedia of above-mentioned bottom top layer block part 1b, the internal space of said vesse main body 1 is communicated with above-mentioned chemical agent groove 6 inside be formed in above-mentioned bottom 1c, this spheroid 2b is arranged at the position at the slightly top for 2a inside, water route, have quantitative notch part 2bh, this knob 2c carries out rotating operation to this spheroid 2b.

The above-mentioned water route 2a that supplies, as shown in Fig. 1 and Fig. 2, is formed in the hole of the pars intermedia of above-mentioned bottom top layer block part 1b as up/down perforation.It is by the minor diameter introducing port 2a1 of top; The valve seat configuration section 2a2 that its diameter is slightly larger than the part be formed at immediately below it; Immediately below this valve seat configuration section 2a2, to extend to bottommost, the major diameter assembly hole 2a3 that its diameter is identical with above-mentioned spheroid 2b is formed.In the bottommost inner circumferential of this major diameter assembly hole 2a3, form female threaded portion 2a31, this female threaded portion 2a31 has the positive thread 2e3 of the periphery of the bottom stop member 2e of valve seat configuration section 2a2 for being screwed on top.

On this above-mentioned valve seat configuration section 2a2 for water route 2a, the upper valve base 2d1 with its diameter communicating pores identical with the minor diameter introducing port 2a1 of topmost is set, immediately below it, in the state of being in contact with it, above-mentioned spheroid 2b is set, in major diameter assembly hole 2a3 below more, bottom stop member 2e is set, the valve seat configuration section 2e1 at the top bottom this in stop member 2e, lower valve base 2d2 is set, according to rotatable state with above upper valve base 2d1 and the lower valve base 2d1 of the below mode of touching support this spheroid 2b.Obviously, bottom this in stop member 2e, bottom it, the female threaded portion 2a31 of the positive thread 2e3 of periphery and the bottommost periphery of this major diameter assembly hole 2a3 screws togather, and is fixed on this position.

In addition, bottom this, stop member 2e is short cylinder shape parts, periphery bottom it, comprise positive thread 2e3, the female threaded portion 2a31 of this positive thread 2e3 and the above-mentioned major diameter assembly hole 2a3 for water route 2a screws togather, and within it, the communicating pores 2e2 that its diameter is identical with above-mentioned minor diameter entrance hole 2a1 is formed in up/down perforation state, in top, form the above-mentioned valve seat configuration section 2e1 that its diameter is greater than this communicating pores 2e2.In addition, above-mentioned lower valve base 2d2 therebetween, offers its diameter identical with upper valve base 2d1, that is, the communicating pores that its diameter is identical with above-mentioned minor diameter introducing port 2a1.

Above above-mentioned spheroid 2b, above-mentioned in fact minor diameter entrance hole 2a1 and the communicating pores being arranged at this above-mentioned above-mentioned upper valve base 2d1 for 2a inside, water route are used separately as above-mentioned for water route 2a.In addition, in the below of this spheroid 2b, the communicating pores 2e2 of the communicating pores and bottom stop member 2e that are arranged at the lower valve base 2d2 of this 2a inside, confession water route is used separately as the confession water route of essence.

In above-mentioned spheroid 2b, as shown in Fig. 1 and Fig. 2, offer quantitative notch part 2bh.This quantitative notch part 2bh is in the present embodiment 1, be formed at the square breach of the capacity of about 2.5cc, in peacetime state upwards, namely, be opened on the appearance side of this container body 1, where necessary, to wear the center of this spheroid 2b, and centered by the axle perpendicular with the length direction of this container body 1, this spheroid 2b is made to revolve turnback, thus, in above-mentioned chemical agent groove 6 side, open state can be in.In addition, obviously, the capacity of quantitative notch part 2bh is not limited to the value of above-mentioned about 2.5cc.

Above-mentioned knob 2c is as shown in Fig. 1 ~ Fig. 3, form the operating mechanism of rotating operation, this operating mechanism is on above-mentioned spheroid 2b, be attached across its center, and with the axis body centered by the axle that the length direction of said vesse main body 1 is perpendicular, be connected to its front end, be positioned at the inside of the operation opening portion 1b3 of the side being opened in upper strata, above-mentioned bottom block part 1b.

Above-mentioned gas path 4 resembles Fig. 1, shown in Fig. 2 and Fig. 5, for being formed at the path in above-mentioned bottom top layer block part 1b, the inside of the inside of said vesse main body 1 with above-mentioned chemical agent groove 6 is connected, in the present embodiment 1, centered by above-mentioned water supply road 2a, form 3 gas passages 4, 4, 4, 3 gas passages 4, 4, 4 along all sides of upper strata, above-mentioned bottom block part 1b, mutually formed with the angle intervals of the angle intervals of 90 degree or 180 degree, at the top of each gas passage 4, as shown in Fig. 1 and Fig. 2, form large diameter valve setting unit 4a, its valve setting unit 4a arranges reverse checkvalve 3, and in the top of this valve setting unit 4a, place is fixed with the gas that the offers minor diameter division plate 4b by aperture 4bh therebetween.

Above-mentioned reverse checkvalve 3 is valve member, this valve member is as shown in Fig. 1 and Fig. 2, by the cylindric base portion 3a and from its top upward of bottom being fixed on above-mentioned valve setting unit 4a, feather valve portion 3b in coniform extension is formed, it is formed in the following manner, which is: if from below, apply the gaseous tension being greater than certain pressure, then the front end of this feather valve portion 3b can be opened, this gas can pass through upward, on the other hand, even if the water pressure of the water in said vesse main body 1 etc. applies from top, still do not open.

Above-mentioned chemical agent groove 6 resembles shown in above-mentioned Fig. 1, Fig. 2 and Fig. 4, in the inner face pars intermedia of above-mentioned bottom 1c, is formed at viewed from plane in foursquare recess.Its size, that is, the length on limit is in length and breadth corresponding with the size of the above-mentioned hydrogenite 5 be received in wherein with the degree of depth, forms according to the mode of being a bit larger tham it.In addition, as shown in Fig. 1 and Fig. 2, above-mentioned bottom 1c is by the connection female threaded portion 1c1 of its week sidepiece inner face, screw togather with the connection outer screw section 1b2 of the periphery, bottom of top side, above-mentioned bottom block part 1b, be installed on the bottom of top side block part 1b bottom this, but due to bottom surface side of top side block part 1b bottom this, as aforementioned, form recess 1d, therefore in such installment state, end face around above-mentioned chemical agent groove 6, and between the bottom surface of top side, bottom block part 1b (end face of above-mentioned recess 1d), is separated with certain clearance space.Like this, by recess 1d, in isolated above-mentioned certain clearance space, filter blocks portion 10 is being set.

Above-mentioned filter blocks portion 10 is flat-shaped part, wherein, as shown in Fig. 1 and Fig. 2, locate therebetween, offer communicating aperture 10h, the communicating pores 2e2 of the bottom stop member 2e being opened in the middle, bottom surface of top side, above-mentioned bottom block part 1b is connected with the chemical agent groove 6 of above-mentioned bottom 1c by this communicating aperture 10h, on the bottom surface, all sides of this communicating aperture 10h, form circular strainer receptacle 10a, this strainer receptacle 10a has opening, a part for this opening is offered downwards towards above-mentioned chemical agent groove 6 side, at another part, with above-mentioned gas path 4, 4, 4 connect.This strainer receptacle 10a is following space, this space is for receiving strainer 11, this strainer 11 passes through according to making the hydrogen formed in this chemical agent groove 6, the foreign matter of hydrogenite 5 grade be received in this chemical agent groove 6 on the other hand does not move on to above-mentioned gas path 4, the mode of 4,4 sides limits.

In addition, on the end face in above-mentioned filter blocks portion 10, form endless groove 10b, 10c, this endless groove 10b, 10c are used for wear ring to be embedded in and above-mentioned gas path 4,4, the outside of 4 opening portions be communicated with and inner side.

Above-mentioned lid 9, as shown in Fig. 1 ~ Fig. 3, is made up of the bottom expanded in taper and the top cylindrically erected.Basic half in the bottom of this taper forms skirt section 9b, it covers tapering coniform portion, the top of the discharge buccal mass part of said vesse main body 1 and stage portion, thus, in the inner circumferential at its top, as aforementioned, formed and connect female threaded portion 9a, this connection female threaded portion 9a screws togather with the connection positive thread 7c of the periphery of the little cylindrical portion 7b of the top block part of formation outlet mouth 7.At the pars intermedia of this lid 9, as shown in Fig. 1 and Fig. 2, form and keep, necessarily, in the present embodiment 1, being not more than the reducing valve 8 that 2 atmospheric modes keep according to the air pressure of container body 1 inside.In addition, be installed on the occasion in outlet mouth 7 at lid 9, form endless groove 9h, in this endless groove 9h, in this lid 9 with the position of the tip contact of above-mentioned little cylindrical portion 7b, insert and wear ring be set.

Above-mentioned reducing valve 8 is as shown in Fig. 1 and Fig. 2, by open holes 8a, leak 8b, mounting cylinder 8c, valve ball 8d, form with compression helical spring 8e, this open holes 8a is in the middle of above-mentioned lid 9, towards inner side, downward opening, this leak 8b is from the middle, top of this open holes 8a, be communicated with outside atmosphere, diameter is less, this mounting cylinder 8c is in middle, bottom, offer inside and outside valve opening 8c1, this valve ball 8d is installed on the bottommost of this mounting cylinder 8c in the mode of being closed by this valve opening 8c1, this valve ball 8d is pressed on this valve opening 8c1 side by this compression helical spring 8e.The inner peripheral surface of above-mentioned open holes 8a forms negative thread, in the periphery of above-mentioned mounting cylinder 8c, the positive thread that formation can screw togather with the negative thread of the inner peripheral surface of this open holes 8a, as aforementioned, above-mentioned reducing valve 8 is formed in the following manner, and which is: the mounting cylinder 8c being provided with above-mentioned valve ball 8d and above-mentioned compression helical spring 8e is screwed into and is fixed in above-mentioned open holes 8a.In addition, in this compression helical spring 8e, if as above, this mounting cylinder 8c be screwed into and be fixed in this open holes 8a, being then in the tip contact of its top and this open holes 8a, in its bottom, above-mentioned valve ball 8d can be pressed on the state of below.

Above-mentioned hydrogenite 5 can adopt and react with water, produces the various type of hydrogen.Be preferably the type of carrying out with the time short as far as possible reacting.In this embodiment 1, adopt the mixture of aluminium and calcium oxide and magnesium.

Slightly specifically, this hydrogenite 5 is all consisted of the mode mixed with aluminium (Al) and calcium oxide (CaO) by the magnesium (Mg) of micronized, and the overall hydrogenite 5 for 1g is received in the form in the packing material that water and gas are passed through.

For this hydrogenite 5, if added water, then calcium oxide and water react, heating, form calcium hydroxide.The aluminium of micronized also reacts with water, forms aluminium hydroxide and hydrogen, heating.In addition, it is believed that, for the aluminium of micronized, if by forming above-mentioned calcium hydroxide, added water forms the aqueous solution of alkalescence, then itself and water react, and also produces the other reaction forming aluminium hydroxide and hydrogen.If the water added like this is in high temperature, then the water of above-mentioned magnesium and this high temperature reacts, and forms magnesium hydroxide and hydrogen.As above, this hydrogenite 5, when receiving the interpolation of water, produces a large amount of hydrogen.

So, according to the portable rich hydrogen water generation kettle of this embodiment 1, forming the occasion of rich hydrogen water, first, above-mentioned hydrogenite 5 is filled in this chemical agent groove 6, in said vesse main body 1, adds the water of wishing the rich hydrogen water forming coffee etc. or take water as the liquid of principal constituent.In the present embodiment 1, add mineral water.

Above-mentioned hydrogenite 5, by taking off the above-mentioned bottom 1c of the bottom of said vesse main body 1, loads in the chemical agent groove 6 of its end face, then, again will be located at outside this bottom 1c on the bottom of bottom top layer block part 1b of the bottom of this container body 1.Obviously, this action is undertaken by following manner, and which is: the connection female threaded portion 1c1 of this bottom 1c is backed out from the connection outer screw section 1b2 of top layer block part 1b bottom this or screwed togather by the former with the latter.In addition, above-mentioned mineral water by taking off above-mentioned lid 9 from the outlet mouth 7 of said vesse main body 1, from form the outlet mouth 7 exposed discharge buccal mass part little cylindrical portion 7b top end opening and inject.Then, similarly, be located at outside this lid 9 in this outlet mouth 7.The mode that this lid 9 is screwed togather by the connection positive thread 7c connecting the periphery of negative thread 9a and this little cylindrical portion 7b, fixing above-mentioned peripheral state.

Generate rich hydrogen water also can will after this carry out, but be applicable to carrying out from the moment that hope is drunk.

Generating the occasion of rich hydrogen water, making the knob 2c of above-mentioned quantitative water supply mechanism 2 revolve turnback, by above-mentioned for a certain amount of injection of the mineral water in said vesse main body 1 chemical agent groove 6, reacting with hydrogenite 5 wherein.Mineral water in this container body 1 is also by the above-mentioned top side for water route 2a, specifically, minor diameter imports the communicating pores of road 2a1 and upper valve base 2d1, enter in the quantitative notch part 2bh of above-mentioned spheroid 2b, as aforementioned, if knob 2c is revolved turnback, then the quantitative notch part 2bh that enters of mineral water towards the private side from said vesse main body 1, become above-mentioned chemical agent groove 6 side, by enter wherein a certain amount of (in the present embodiment, for 2.5cc) mineral water by for the bottom side of water route 2a, specifically, the communicating pores of lower valve base 2d2 and the communicating pores 2e2 of bottom stop member 2e and the communicating aperture 10h of filter blocks part 10, inject above-mentioned chemical agent groove 6.

If like this, be injected into by mineral water in chemical agent groove 6, then the hydrogenite 5 of filling in the inner reacts hastily with water, produces hydrogen.Here and produce hydrogen riddle this chemical agent groove 6, the communicating pores of lower valve base 2d2, the communicating pores 2e2 of bottom stop member 2e, and the reverse checkvalve 3 of above-mentioned gas path 4,4,4,3, the lower side of 3, but, if recurring by hydrogen, until gaseous tension wherein exceedes certain pressure, then this hydrogen is by this reverse checkvalve 3,3,3, move to gas passage 4, the upper side of 4,4, this gas passage 4,4, in 4 mineral waters in connected container body 1, dissolve at leisure in the inner, remaining part floats.

In addition, in above-mentioned chemical agent groove 6 and gas passage 4,4, between 4, be situated between and be provided with the strainer 11 be held in the strainer receptacle 10a of filter blocks part 10, the movement of above such hydrogen is undertaken by this strainer 11.So, even if the powder of the hydrogenite 5 in above-mentioned chemical agent groove 6 etc. are because of factors such as its package breakages, when being discharged to outside this package, still do not flow into the danger of said vesse main body 1 inside.

In addition, about the generation of such hydrogen, the occasion of the degree formed can be used as portable unit, also depend on the character of hydrogenite 5, but decomposed by the electricity of water with the reaction of water, carry out in the short period, a large amount of hydrogen can be produced rapidly, in this embodiment 1, if make above-mentioned knob 2c revolve turnback, the mineral water of about 2.5cc is injected into chemical agent groove 6 side, then can from then on moment, through the time of about 3 minutes, produce the hydrogen of q.s.

The hydrogen of generation as above like this, via above-mentioned reverse checkvalve 4,4,4, move in container body 1, while being dissolved in mineral water wherein, float wherein, the remaining hydrogen do not dissolved moves on in the space on the end face in the mineral water in this container body 1.The pressure of the hydrogen in this space etc. like this, rise at leisure, but on the above-mentioned lid 9 of the top end opening of the little cylindrical portion 7b at its top of closedown, therebetween, reducing valve 8 is set, in the occasion that about air pressure rises more than 2 atmospheric degree, as aforementioned, discharge the hydrogen etc. of this degree, its inside is held in below 2 normal atmosphere.Pressure can be made too not increase.

As aforementioned, in the water supplying operation moment of the knob 2c from above-mentioned quantitative water supply mechanism 2, through the time producing hydrogen fully can be judged, namely, after the time of above-mentioned 3 minutes, with 20 ~ 30 seconds, said vesse main body 1 is vibrated, the mineral water of inside and hydrogen are stirred, thus, the dissolving of this hydrogen in mineral water can be promoted.Like this, the mineral water of container body 1 inside is the rich hydrogen water that hydrogen dissolves with fully high concentration.Such as, under water temperature more than 15 DEG C, the concentration of the hydrogen of the mineral water in said vesse main body 1 before the stirring action making container body 1 vibrate, in 0.9 ~ 1.1ppm(weight ratio) scope in, and after stirring action, in 1.3 ~ 1.6ppm(weight ratio) scope in.Even if before stirring action, the concentration of the hydrogen of this mineral water is fully high, but if carry out stirring action, then this concentration can be made higher.

Then, the occasion of the rich hydrogen water in drinking container main body 1, peripheral hardware and be fixed in above-mentioned outlet mouth 7, rotates the above-mentioned lid 9 that the opening on the top of above-mentioned little cylindrical portion 7b is closed along the direction of taking off and unscrews.If unscrew this lid 9, be then arranged on the wear ring in the endless groove 9h of the bottom surface of this lid 9 on the top being crimped on this little cylindrical portion 7b and leave with the top of this little cylindrical portion 7b, this container body 1 loses resistance to air loss.If like this, the resistance to air loss of this container body 1 loses, the hydrogen then residuing in the higher air pressure at the top of this container body 1 is flowed out by 2 longitudinal slots formed on the connection positive thread 7c of the periphery of this little cylindrical portion 7b, and the air pressure of this container body 1 inside reduces.Then, if the air pressure of this container body 1 inside reduces, be then dissolved in the multiple small bubbles of a certain amount of hydrogen evolution in mineral water, blow out and rise.Because this container body 1 is transparent, therefore the rising of multiple small bubbles of such hydrogen can be recognized from outside.

If as above, the hydrogen that discharge air pressure is slightly high, unscrews this lid 9 further, is taken off, then the rich hydrogen water of drinkable mineral water.Drink and afterwards, from the top end opening of the little cylindrical portion 7b as relief outlet, directly can carry out or be injected in glass cylinder class, then carrying out from this glass cylinder class.

In addition, in the above description, because said vesse main body 1 is by can the plastics of perspective inside form, therefore not only can have the occasion of drinking of taking off lid 9 as described above, but also the reaction that can be observed because of hydrogenite 5 and water and the hydrogen that produces forms bubble, it floats on the appearance etc. in the mineral water in this container body 1.

In addition, according to the portable rich hydrogen water generation kettle of embodiment 1, owing to not being inner in said vesse main body 1, electrode is set, is decomposed by electricity, produce the situation of hydrogen, therefore the mineral water that not only can will provide above, tap water, but also can by above-mentioned coffee, tea or juice etc. are used as the former water producing hydrogen.

(embodiment 2)

The portable rich hydrogen water generation kettle of this embodiment 2 is as shown in Fig. 6 ~ Fig. 8, substantially by container body 21, gas passage 24, chemical agent groove 26, outlet mouth 27, form with lid 29, this gas passage 24 is formed at the bottom top layer of this container body 21, there is reverse checkvalve 23, this chemical agent groove 26 is formed at the bottom bottom of this container body 21, receive hydrogenite 25, this outlet mouth 27 is formed at the top of this container body 21, and this lid 29 is located in this outlet mouth 27 with outside removably mode.

This container body 21 is as shown in Fig. 6 ~ Fig. 8, by cylinder-like part 21a, bottom top layer block part 21b, bottom 21c and above-mentioned outlet mouth 27 are formed, this cylinder-like part 21a is made up of transparent plastics, and bottom this, top layer block part 21b forms the bottom top layer as the bottom of these parts 21a, and this bottom 21c is bottom bottom block part, form above-mentioned chemical agent groove 26, this above-mentioned outlet mouth 27 is made up of the discharge buccal mass part at top.

Bottom this, top layer block part 21b is as shown in Fig. 6 and Fig. 7, be essentially the parts of its diameter short cylindrical shape identical with above-mentioned cylinder-like part 21a, at its top peripheral, form breach, form the connection minor diameter 21b1 basically identical with the internal diameter of this cylinder-like part 21a.As shown in this figure, be located on this connection minor diameter 21b1 outside the bottom of above-mentioned cylinder-like part 21a, form the bottom top layer of the bottom of said vesse main body 21.The bottom inner circumferential of this cylinder-like part 21a and bottom this connection section of the connection minor diameter 21b of top layer block part 21b fixed by caking agent.

In addition, the bottom of bottom top layer block part 21b is also by its peripheral part, and form the mode of breach, form minor diameter, in its periphery, car has screw thread, forms the connection outer screw section 21b2 screwed togather with the connection female threaded portion 21c1 of above-mentioned bottom 21c.In addition, inside of top layer block part 21b bottom this, forms the gas passage 24 with the above-mentioned reverse checkvalve 23 that its particular content describes below.

Above-mentioned bottom 21c is also as shown in Fig. 6 ~ Fig. 8, for the thin module rounded viewed from plane that its external diameter is identical with above-mentioned cylinder-like part 21a, the inner face of the cycle side plate erected along its week side has been got on the bus screw thread, forms the above-mentioned connection female threaded portion 21c1 screwed togather with the connection outer screw section 21b2 of the periphery, bottom of above-mentioned bottom top layer block part 21b.

The discharge buccal mass part forming above-mentioned outlet mouth 27 passes through in its external diameter bottommost periphery identical with above-mentioned cylinder-like part 21a, form breach, form the connection minor diameter 27a basically identical with the internal diameter of this cylinder-like part 21a, as shown in Fig. 6 and Fig. 7, to be located on this connection minor diameter 27a outside the top of this cylinder-like part 21a, both are connected.This both connection section is fixed by caking agent.

Form the discharge buccal mass part of above-mentioned outlet mouth 27 as shown in Fig. 6 and Fig. 7, form little cylindrical portion 27b, the part that this little cylindrical portion 27b its diameter residual is slightly identical with the above-mentioned cylinder-like part 21a of the top of the connection minor diameter 27a of bottommost, from its top, form upper tip lentamente, extend to top, and from this top, extend to top, on this little cylindrical portion 27b, formed and connect positive thread 27c, this positive thread 27c passes through in periphery, car has screw thread, screws togather with the connection negative thread 29a of the inner circumferential of above-mentioned lid 29.

In addition, on this connection positive thread 27c, from its top, to the four corner of bottom, with the angle intervals of circumference 180 degree, form 2 longitudinal slots.

In addition, the inner side forming the discharge buccal mass part of this outlet mouth 27 is taper, wherein, from bottommost, upwards, diameter diminishes the scope near the lowermost end of the little cylindrical portion 27b at top, the inner side of the little cylindrical portion 27b at its top is formed on the cylindric inner face of same diameter, until top.

Above-mentioned bottom top layer block part 21b, the bottom 21c as above-mentioned bottom bottom is identical with above-mentioned cylinder-like part 21a with the discharge buccal mass part as above-mentioned outlet mouth 27, in this embodiment 2, by transparent plastic production.In addition, in this embodiment 2, container body 21 be from form its bottom surface the end face of bottom top layer block part 21b, to form outlet mouth 27 discharge buccal mass part bottom scope in, the capacity of the water of 260ml can be put into.For about 74% of the capacity of the container body 1 of embodiment 1.Obviously, this capacity is not limited to.

Above-mentioned gas path 24 resembles Fig. 6, shown in Fig. 7 and Fig. 9, is access, and this access is formed at the center of above-mentioned bottom top layer block part 21b, to be connected the inside of the inside of said vesse main body 21 with above-mentioned chemical agent groove 26.This gas passage 24 is large diameter access, except top, as shown in Fig. 6 and Fig. 7, doubles as valve setting unit 24a, is installed in by reverse checkvalve 23 in this valve setting unit 24a.At the bottom periphery of this this valve setting unit 24a, form negative thread, this negative thread screws togather with the positive thread of surrounding of the cylindric base portion 23a being formed at reverse checkvalve 23, reverse checkvalve 23 is being installed in after on this valve setting unit 24a, screwed togather by the positive thread of the periphery by this cylindric base portion 23a and negative thread, be fixed on this position.Be formed at the gas of the minor diameter of the position corresponding with the pars intermedia of this valve setting unit 24a by aperture 24b in the top formation of above-mentioned gas path 24, be opened on the end face of above-mentioned bottom top layer block part 21b.

Above-mentioned reverse checkvalve 23 is as shown in Fig. 6 and Fig. 7, for valve member, this valve member is made up of cylindric base portion 23a and feather valve portion 23b, this cylindric base portion 23a is fixed on the bottom of this valve setting unit 24a, this feather valve portion 23b is from its top, upward, in coniform extension, this valve member is formed in the following manner, which is: if from below, be applied above the gaseous tension of certain pressure, then the front end of this elastic valve body 23b is opened, this gas can pass through upward, on the other hand, even if from top, when applying the water pressure of the water in above-mentioned container body 21 etc., still do not open.

Above-mentioned chemical agent groove 26 resembles Fig. 6, shown in Fig. 7 and Figure 10, at the inner face pars intermedia of above-mentioned bottom 21c, basic in square viewed from plane, is made up of, in this recess, on 2 the parallel limits faced by this, heaves outward recess.The length on except heaving part 4 limits in this limit is corresponding with the size of the hydrogenite 25 be received in wherein, thus, forms slightly largely.About the degree of depth, to be greater than the thickness of this hydrogenite 25, with on the bottom surface being bonded and fixed to above-mentioned bottom top layer block part 21b so that the size that the mode do not invaded in above-mentioned gas path 24 according to foreign matter carries out the thickness of the strainer 24f limited is formed.In addition, resemble Fig. 6, shown in Fig. 7 and Figure 10, on the end face around the chemical agent groove 26 of above-mentioned bottom 21c, form the endless groove 21c2 being incorporated with wear ring.

Above-mentioned lid 29 is as shown in Fig. 6 ~ Fig. 8, for parts substantially cylindrically, in week within it, formed and connect negative thread 29a, this connection negative thread 29a screws togather with the connection positive thread 27c of the periphery of the little cylindrical portion 27b of the top block part of formation outlet mouth 27.In addition, on the periphery, bottom of this lid 29, form skirt section 29b, this skirt section 29b, in the state screwed togather by the connection positive thread 27c of the connecting thread 29a of this lid 29 and this little cylindrical portion 27b, covers directly over its diameter position identical with cylinder-like part 21a in the top block part forming this outlet mouth 27.In addition, the position right with the top end face of above-mentioned little cylindrical portion 27b in this lid 29, as shown in Fig. 6 and Fig. 7, form the endless groove 29c for being equipped with wear ring, wear ring is loaded in it, this lid 29 is installed on the state in discharge portion 27, the resistance to air loss of container body 21 inside can be kept.

Above-mentioned hydrogenite 25 freely can adopt and react with water, produces the type of the character of hydrogen.Be preferably the type that reaction was carried out with the time short as far as possible.In this embodiment 2, all adopt with the identical type of type of the aluminium of micropowder, calcium oxide and the magnesium embodiment 1 that is composition.

So, according to the portable rich hydrogen water generation kettle of embodiment 2, making the occasion of hydrogen, first, above-mentioned hydrogenite 25 is filled in this chemical agent groove 26, in said vesse main body 21, put into and wish to form water, the water of the rich hydrogen water of coffee etc. or take water as the liquid of principal constituent.This hydrogenite 25 does not have to react with the water comprising sugared part well, produces hydrogen hardly.So, the liquid be received in container body 21 is a part of in taking-up, inject above-mentioned chemical agent groove 26, the occasion of reacting with above-mentioned hydrogenite 25, be defined in not comprise the liquid that the water of sugared part is principal constituent, but like this do not adopting the occasion of the liquid in this container body 21, as with the former water received in the inner, as long as be take water as the liquid of principal constituent, arbitrary liquid can be selected.In this embodiment 2, in container body 1, put into mineral water.In addition, in this embodiment 2, be equipped with the small vessels (capacity of 1.2cc) of plastics, as the water of the hydrogen generation made an addition in above-mentioned hydrogenite 25, weak aqueous acid be filled in this small vessels, make an addition in this hydrogenite 25.In addition, in example 2, weak acid adopts citric acid.When adopting the situation of acid to be intended to react with hydrogenite 25 like this, the water of neutralization alkalescence.

By taking off the above-mentioned bottom 21c of the bottom of said vesse main body 21, above-mentioned hydrogenite 25 being loaded in the chemical agent groove 26 of its end face, then, again this bottom 21c being installed on the bottom of the bottom top layer block part 21b of the bottom of this container body 21.This action pass-through mode carries out, and which is: the connection female threaded portion 21c1 of this bottom 21c is backed out from the connection outer screw section 21b2 of top layer block part 21b bottom this and screwed togather by the former with the latter successively.In addition, certainly, above-mentioned mineral water by taking off above-mentioned lid 29 from the outlet mouth 27 of said vesse main body 21, from form the outlet mouth 27 exposed discharge buccal mass part little cylindrical portion 27b top end opening and inject.Then, similarly, be located at outside this lid 29 in this outlet mouth 27.The mode that this lid 29 is screwed togather by the connection positive thread 27c connecting the periphery of negative thread 29a and this little cylindrical portion 27b, fixing above-mentioned installment state.In the inside of said vesse main body 21, like this, the top due to this little cylindrical portion 27b is in and the wear ring crimped status chimeric with the endless groove 29c of the bottom surface of this lid 29, therefore afterwards, is held in airtight conditions.

Generate rich hydrogen water also can will after this carry out, but be applicable to carrying out from the moment that hope is drunk.

Generating the occasion of rich hydrogen water, water must be made an addition in the hydrogenite 25 in above-mentioned chemical agent groove 26, but, can as aforementioned, it adopts the liquid in container body 21 or the water beyond it.In this embodiment 2, do not adopt the liquid in container body 21, and adopt the lemon aqueous acid be filled in small vessels made an addition in hydrogenite.

The hydrogenite 25 that this embodiment 2 adopts can not react well with the water comprising sugared part and produce hydrogen, but, owing to certainly not comprising sugared part being filled in the lemon aqueous acid in above-mentioned small vessels, therefore there is no such problem.Can effectively for the generation of hydrogen.

So, in the present embodiment 2, making the occasion of hydrogen, take off above-mentioned bottom 21c, the lemon aqueous acid of the about 1.2cc be filled in above-mentioned small vessels injected and is supplied to the chemical agent groove 26 of the inner face of this bottom 21c, this bottom 21c being installed on the bottom top layer block part 21b of the bottom of this container body 21 at once.This situation is loaded in advance in chemical agent groove 26 by hydrogenite 25, then lemon aqueous acid injected and be supplied to the example of hydrogenite 25, but also can adopt following order, namely, only former water is received in said vesse main body 21, when the drinking of the rich hydrogen water of hope, take off above-mentioned bottom 21c, hydrogenite 25 is loaded in the chemical agent groove 26 of its inner face, and then from this small vessels, inject and supply lemon aqueous acid, then this bottom 21c being installed on the bottom top layer block part 21b of the bottom of this container body 21 at once.

If like this, in above-mentioned chemical agent groove 26, hydrogenite 25 and put into small vessels lemon aqueous acid according to this order successively, or almost side by side to load, the hydrogenite 25 be then received in wherein reacts with the water in lemon aqueous acid hastily, produces hydrogen.The hydrogen here produced riddles the lower side of the above-mentioned reverse checkvalve 23 of this chemical agent groove 26 and above-mentioned gas path 24, if but pass through the continuous generation of hydrogen, gaseous tension wherein exceedes certain pressure, then this hydrogen is by this reverse checkvalve 23, move on to the upper side of gas passage 24, in the above-mentioned mineral water in the container body 21 that this gas passage 24 connects, produce bubble, be dissolved in this water at leisure, remaining part floats simultaneously.

Because the cylinder-like part 21a and other part that form this container body 21 are made up of transparent plastics, therefore this appearance can be observed from outside, the generation state of observable hydrogen.

In addition, between above-mentioned chemical agent groove 26 and gas passage 24, be situated between and be provided with strainer 24f, this strainer 24f is bonded and fixed on the bottom surface of above-mentioned bottom top layer block part 21b, and the movement of above-mentioned such hydrogen is undertaken by this strainer 24f.So, even if the powder of the hydrogenite 25 in this chemical agent groove 26 etc. are because of factors such as its package breakages, when being discharged to outside this package, still do not flow into the danger of said vesse main body 21 inside.

In addition, about the generation of such hydrogen, the occasion of the degree formed can be used as portable unit, can as describing for embodiment 1, decomposed by the electricity of water with the reaction of water, carry out in the short period of time, a large amount of hydrogen can be produced rapidly, in this embodiment 2, if as aforementioned, with hydrogenite 25 almost side by side or after loading this hydrogenite 25, the lemon aqueous acid of about 1.2cc is injected in chemical agent groove 26, in the moment then can from then on injected, through the time of about 3 minutes, produce the hydrogen of q.s.

The hydrogen produced like this, as aforementioned, via above-mentioned reverse checkvalve 24, moves in container body 21, form bubble, while being dissolved in mineral water wherein, float wherein, the remaining hydrogen do not dissolved moves on in the space on the end face in the mineral water in this container body 21.The pressure of the hydrogen in this space etc. like this, rises at leisure, but confirms according to multiple experimental result, and the air pressure of its inside is no more than 2 atmospheric degree.Container body 21 can resist 10 normal atmosphere, so do not have pressure too to rise, makes the danger that container body 21 breaks.

As aforementioned, can judge from the injection moment of the lemon aqueous acid putting into small vessels in process, produce the time of hydrogen fully, namely, after the time of above-mentioned 3 minutes, with 20 ~ 30 seconds, said vesse main body 21 is vibrated, the mineral water of inside and hydrogen are stirred, thus, the dissolving of this hydrogen in mineral water can be promoted.Like this, the mineral water of container body 21 inside is the rich hydrogen water that hydrogen dissolves with fully high concentration.As illustrating for embodiment 1, such as, under the water temperature of more than 15 DEG C, the concentration of the hydrogen of the mineral water in said vesse main body 21 is from the 0.9 ~ 1.1ppm(weight ratio before the stirring action making container body 21 vibrate) scope, become the 1.3 ~ 1.6ppm(weight ratio after stirring action) scope.Even if before stirring action, the concentration of the hydrogen of this mineral water is fully high, but if carry out stirring operation, then this concentration can be made higher.

Then, the occasion of the rich hydrogen water in drinking container main body 21, is fixed in above-mentioned outlet mouth 27 by peripheral hardware, is unscrewed at leisure by the above-mentioned lid 29 that the opening on the top of above-mentioned little cylindrical portion 27b is closed.If like this, the connection negative thread 29a of this lid 29 loose and connection positive thread 27c of this little cylindrical portion 27b screws togather state, then remove the airtight conditions of the crimping on the top of wear ring in the endless groove 29c being embedded on the bottom surface being formed in this lid 29 and this little cylindrical portion 27b, by being formed at the longitudinal slot in this connection positive thread 27c, 2 the atmospheric hydrogen that are less than residuing in the top of this container body 21 flow out in outside atmosphere at leisure.By like this, the air pressure on the end face of mineral water reduces, and the hydrogen in mineral water also forms multiple small bubbles, blowout and rising, and on the other hand, because this container body 21 is transparent, therefore can recognize the motion of multiple small bubbles of such hydrogen from outside.

If as above, unscrew this lid 29 at leisure, taken off, then the rich hydrogen water of drinkable mineral water.Drink and afterwards, from the top end opening of the little cylindrical portion 27b as relief outlet, directly can carry out or be injected in glass cylinder class, then carrying out from this glass cylinder class.

In addition, according to the portable rich hydrogen water generation kettle of embodiment 2, due to as illustrating for embodiment 1, not inner in said vesse main body 1, electrode is set, decomposed by electricity, produce the situation of hydrogen, thus the mineral water that not only can will provide above, tap water, but also can by above-mentioned coffee, tea or juice etc. are used as the former water producing hydrogen.

industry utilizes possibility

Portable rich hydrogen water generation kettle of the present invention can be used for the manufacture field of these goods.

Claims (7)

1. a portable rich hydrogen water generation kettle, this portable rich hydrogen water generation kettle comprises container body, in this container body, is formed and receives water or take water as the internal space portion of liquid of principal constituent; Lid; Chemical agent groove; Hydrogenite, this hydrogenite and water or take water as the liquid reactions of principal constituent, produce hydrogen; The hydrogen produced is dissolved in water or with water be principal constituent liquid in, it is characterized in that, this portable rich hydrogen water generation kettle is made up of following parts, and these following parts comprise:

Above-mentioned lid, this lid is arranged on the top of container body in a detachable fashion;

Above-mentioned chemical agent groove, this chemical agent groove is formed at the bottom bottom of container body;

Above-mentioned hydrogenite, this hydrogenite be received in container body inside water or take water as the liquid reactions of principal constituent, produce hydrogen;

Reverse checkvalve, established hydrogen imports in the portion of internal space by this reverse checkvalve, can stop to be received in water in the portion of internal space or to take water as the situation of liquid countercurrent to hydrogenite side of principal constituent;

In the bottom of container body, form the gas passage portion that this reverse checkvalve is arranged, this reverse checkvalve is arranged at gas passage portion, and this reverse checkvalve has the hole be communicated with internal space portion, and the bottom of this reverse checkvalve is open;

Above-mentioned chemical agent groove has open top end, and receive the chemical agent slot space portion of the chemical agent groove of hydrogenite, this chemical agent slot space portion is connected with the gas passage portion that this reverse checkvalve is arranged;

Chemical agent groove is installed on container body from outside, in this chemical agent groove, hydrogenite is received in chemical agent slot space portion, receive and with the addition of water or take water as the hydrogenite of liquid of principal constituent, the hydrogen produced outside container body via this reverse checkvalve being arranged at container body inside, from the bottom side in internal space portion and the water be supplied in the internal space portion of container body inside or with water be principal constituent liquid.

2. portable rich hydrogen water generation kettle according to claim 1, it is characterized in that, the chemical agent slot space portion of above-mentioned chemical agent groove arranges gas passage portion through filter with reverse checkvalve and is connected.

3. portable rich hydrogen water generation kettle according to claim 1, it is characterized in that, container body is made up of, bottom this in top layer block part cylinder-like part, bottom top layer block part, bottom and outlet mouth, form reverse checkvalve and gas passage portion is set, reverse checkvalve is set.

4. portable rich hydrogen water generation kettle according to claim 1, it is characterized in that, above-mentioned chemical agent groove is formed by the block part body of the rounded shape of profile, the screw thread be formed on the inner face of this block part body forms being threaded of the outside of the block part of the rounded shape of profile of the bottom of container body with formation, and above-mentioned chemical agent groove is installed on container body.

5. portable rich hydrogen water generation kettle according to claim 1, is characterized in that, above-mentioned lid is formed with the reducing valve of the pressure in the internal space of reducing container body.

6. portable rich hydrogen water generation kettle according to claim 1, it is characterized in that, hydrogenite is formed by the mixture of aluminium and calcium oxide, is received in chemical agent groove.

7. portable rich hydrogen water generation kettle according to claim 1, it is characterized in that, hydrogenite is formed by the mixture of aluminium, magnesium and calcium oxide, is received in chemical agent groove.